the research result was accepted for published in acs nano 6 , 1011 (2012)

Self-Assembly of Biofunctional Polymer on Graphene Nanoribbons D. G. Reuven, Kelvin Suggs, M. D. Williams, X.-Q. (Larry) Wang (Clark Atlanta University) DMR-Award #0934142 Clark Atlanta University researchers supported by the NSF PREM project worked on supramolecular self-assembly of biofunctional-modified poly(2 methoxystyrene) on graphene nanoribbons. The bioactive polymer has attracted a considerable interest owing to its versatile properties as a bisosensor. However, the formation of regular patterned structures for the polymer is difficult, which greatly hampers its applications. The combined experimental and theoretical work demonstrates that the glycol modified polymer can self-assemble into structured nanopatterns on graphene nanoribbons with preserved bioactivity. The findings demonstrate The research result was accepted for published in ACS Nano 6, 1011 (2012).

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Self-Assembly of Biofunctional Polymer on Graphene Nanoribbons D . G. Reuven, Kelvin Suggs, M. D. Williams, X.-Q. (Larry) Wang (Clark Atlanta University) DMR-Award #0934142. - PowerPoint PPT Presentation

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Page 1: The research result was accepted for published in ACS Nano 6 , 1011 (2012)

Self-Assembly of Biofunctional Polymer on Graphene Nanoribbons

D. G. Reuven, Kelvin Suggs, M. D. Williams, X.-Q. (Larry) Wang (Clark Atlanta University) DMR-Award #0934142

Clark Atlanta University researchers supported by the NSF PREM project worked on supramolecular self-assembly of biofunctional-modified poly(2 methoxystyrene) on graphene nanoribbons. The bioactive polymer has attracted a considerable interest owing to its versatile properties as a bisosensor. However, the formation of regular patterned structures for the polymer is difficult, which greatly hampers its applications. The combined experimental and theoretical work demonstrates that the glycol modified polymer can self-assemble into structured nanopatterns on graphene nanoribbons with preserved bioactivity. The findings demonstrate that the assembly yields a prospective route to novel nanomaterial systems.

The research result was accepted for published in ACS Nano 6, 1011 (2012).

J 2013 ACS Nano Controlling CVD Graphene SI

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